US12442757B2ActiveUtilityA1

Gas measuring device and gas measuring method

63
Assignee: SINTOKOGIO LTDPriority: Jun 15, 2022Filed: May 16, 2023Granted: Oct 14, 2025
Est. expiryJun 15, 2042(~15.9 yrs left)· nominal 20-yr term from priority
G01N 21/05G01N 21/31G01N 21/21
63
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Claims

Abstract

A gas measuring device includes a gas chamber into which a sample gas containing a target gas is introduced, a gas detection unit configured to detect the target gas contained in the sample gas introduced into the gas chamber, an irradiation unit configured to apply polarized light to the sample gas introduced into the gas chamber using a polarizer, an optical rotation measurement unit configured to measure optical rotation between the polarized light applied from the irradiation unit to the sample gas and the polarized light that has been transmitted through the sample gas using an analyzer, and an output unit configured to output information on the target gas detected by the gas detection unit and information on the optical rotation of the polarized light detected by the optical rotation measurement unit in association with each other.

Claims

exact text as granted — not AI-modified
What is claimed is: 
     
       1. A gas measuring device comprising:
 a case that defines a gas chamber; 
 the gas chamber into which a sample gas containing a target gas is introduced; 
 a gas sensor configured to detect the target gas contained in the sample gas introduced into the gas chamber; 
 a light source configured to apply polarized light to the sample gas introduced into the gas chamber using a polarizer; 
 an optical sensor configured to measure optical rotation between the polarized light applied from the light source to the sample gas and the polarized light that has been transmitted through the sample gas using an analyzer; and 
 an output module configured to output information on the target gas detected by the gas sensor and information on the optical rotation of the polarized light detected by the optical sensor in association with each other, 
 wherein the gas sensor, the light source and the optical sensor are disposed inside the case. 
 
     
     
       2. The gas measuring device according to  claim 1 , wherein
 the optical sensor and the gas sensor are configured by one semiconductor sensor, and 
 the one semiconductor sensor is configured to respond to both light and gas. 
 
     
     
       3. The gas measuring device according to  claim 1 , comprising:
 an optical splitter configured to optically split the polarized light applied from the light source to the sample gas into a plurality of polarized lights, 
 wherein the optical sensor measures optical rotation between the polarized light applied from the light source to the sample gas and each of the plurality of polarized lights that have been optically split by the optical splitter and transmitted through the sample gas. 
 
     
     
       4. The gas measuring device according to  claim 1  further comprising:
 a gas introduction part configured to form a gas flow of the sample gas in the gas chamber; and 
 an airflow controller having a plurality of openings through which the sample gas passes, 
 wherein the gas sensor is configured to detect the target gas contained in the sample gas that has passed through the openings of the airflow controller. 
 
     
     
       5. The gas measuring device according to  claim 4 , wherein
 the airflow controller is optically configured to split the polarized light that has been transmitted through the sample gas into a plurality of polarized lights, and 
 the optical sensor is configured to measure optical rotation between the polarized light applied from the light source to the sample gas and each of the plurality of polarized lights that have been optically split by the airflow controller. 
 
     
     
       6. A gas measuring method comprising:
 an introduction step of introducing a sample gas containing a target gas into a gas chamber defined by a case; 
 a gas detection step of detecting with a gas sensor the target gas contained in the sample gas introduced into the gas chamber; 
 an irradiation step of applying with a light source polarized light to the sample gas introduced into the gas chamber; 
 a light detection step of measuring with an optical sensor optical rotation between the polarized light applied to the sample gas and the polarized light that has been transmitted through the sample gas; and 
 an output step of outputting information on the target gas detected in the gas detection step and information on the optical rotation of the polarized light detected in the light detection step in association with each other, 
 wherein the gas detection sensor, the light source and the optical sensor are disposed inside the case that defines a gas chamber therein.

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